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You searched for: subject:"energy exchange"
[texts]Energy exchange in the collision of particles with a solid wall - Leonas, V. B
Energy exchange in collision of particles with solid surface
Keywords: COLLISIONS; ENERGY TRANSFER; PARTICLE COLLISIONS; SOLID SURFACES; WALLS; ENERGY EXCHANGE; PARTICLE COLLISION; SOLID SURFACE
Downloads: 82
[texts]Modelling energy exchange processes in ecological systems - Rubin, A. B
Mathematical model of energy exchange processes in closed ecological systems
Keywords: CLOSED ECOLOGICAL SYSTEMS; ECOSYSTEMS; ENERGY TRANSFER; MATHEMATICAL MODELS; CLOSED ECOLOGICAL SYSTEM; ENERGY EXCHANGE; MATHEMATICAL MODEL
Downloads: 104
[movies]Launchpad: Phase Diagrams and Why You Cannot Make a Snowball on Mars - NASA eClips
Join NASA scientists who study the History of Winter to learn about phase changes and the unique properties of water. Find out why ice floats and why this is important to life on Earth. See what pressure and temperature have to do with making snowballs.
Keywords: NASA; NIA; eClips; Launchpad; secondary; video; education; physics; technology; science; physical science; space; biology; Mars; temperature; moon; phase changes; snowball; properties; energy exchange; pressure; in situ resource utilization; ISRU; vapor; density; state of matter; History of Winter; HOW; LCROSS; Phoenix
Downloads: 3,756
[audio]MIT 16.01 Unified Engineering I, II, III, & IV, Fall 2005 - MIT OpenCourseWare
The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, a...
Keywords: Unified; Unified Engineering; aerospace; CDIO; C-D-I-O; conceive; design; implement; operate; team; team-based; discipline; materials; structures; materials and structures; computers; programming; computers and programming; fluids; fluid mechanics; thermodynamics; propulsion; signals; systems; signals and systems; systems problems; fundamentals; technical communication; graphical communication; communication; reading; research; experimentation; personal response system; prs; active learning; First law; first law of thermodynamics; thermo-mechanical; energy; energy conversion; aerospace power systems; propulsion systems; aerospace propulsion systems; heat; work; thermal efficiency; forms of energy; energy exchange; processes; heat engines; engines; steady-flow energy equation; energy flow; flows; path-dependence; path-independence; reversibility; irreversibility; state; thermodynamic state; performance; ideal cycle; simple heat engine; cycles; thermal pressures; temperatures; linear static networks; loop method; node method; linear dynamic networks; classical methods; state method
Downloads: 212
[movies]MIT 16.01 Unified Engineering I, II, III, & IV, Fall 2005 - Spring 2006 - MIT OpenCourseWare
The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, a...
Keywords: Unified; Unified Engineering; aerospace; CDIO; C-D-I-O; conceive; design; implement; operate; team; team-based; discipline; materials; structures; materials and structures; computers; programming; computers and programming; fluids; fluid mechanics; thermodynamics; propulsion; signals; systems; signals and systems; systems problems; fundamentals; technical communication; graphical communication; communication; reading; research; experimentation; personal response system; prs; active learning; First law; first law of thermodynamics; thermo-mechanical; energy; energy conversion; aerospace power systems; propulsion systems; aerospace propulsion systems; heat; work; thermal efficiency; forms of energy; energy exchange; processes; heat engines; engines; steady-flow energy equation; energy flow; flows; path-dependence; path-independence; reversibility; irreversibility; state; thermodynamic state; performance; ideal cycle; simple heat engine; cycles; thermal pressures; temperatures; linear static networks; loop method; node method; linear dynamic networks; classical methods; state method
Downloads: 2,825
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